When can herbivores slow or reverse the spread of an invading plant? A test case from Mount St. Helens.
about
The influence of interspecific interactions on species range expansion ratesThe hidden side of plant invasions: the role of genome size.Successional change in phosphorus stoichiometry explains the inverse relationship between herbivory and lupin density on Mount St. Helens.Species-driven changes in nitrogen cycling can provide a mechanism for plant invasionsN-P co-limitation of primary production and response of arthropods to N and P in early primary succession on Mount St. Helens volcanoExploiting Allee effects for managing biological invasions.Interactions between a pollinating seed predator and its host plant: the role of environmental context within a population.The effect of consumers and mutualists of Vaccinium membranaceum at Mount St. Helens: dependence on successional context.Success, failure, and spreading speeds for invasions on spatial gradients.Gopher mounds decrease nutrient cycling rates and increase adjacent vegetation in volcanic primary succession.Contributions of demography and dispersal parameters to the spatial spread of a stage-structured insect invasion.Native insect herbivory overwhelms context dependence to limit complex invasion dynamics of exotic weeds.Model complexity affects transient population dynamics following a dispersal event: a case study with pea aphids.Unrecognized impact of a biocontrol agent on the spread rate of an invasive thistle.Herbivory and pollen limitation at the upper elevational range limit of two forest understory plants of eastern North America.Thresholds in plant-herbivore interactions: predicting plant mortality due to herbivore browse damage.Trophic interactions and range limits: the diverse roles of predation.The importance of census times in discrete-time growth-dispersal models.Browsing by an invasive herbivore promotes development of plant and soil communities during primary successionDiscrete-time growth-dispersal models with shifting species rangesLong-term insect herbivory slows soil development in an arid ecosystemThe role of biotic factors during plant establishment in novel communities assessed with an agent-based simulation model
P2860
Q28649510-71564A0B-D43E-4539-9858-A6A9D10CB6D0Q30861745-E48EF511-81D8-475B-98BD-1BC1156F2B19Q30883001-EC2C6756-35A4-429C-AD34-0A19A47F0562Q33480808-EF0AB3D6-70E7-4FD2-B4D2-3F835519BD98Q33737627-DE3929BC-F54E-496D-85C0-5D6E08A0354EQ33850255-98737161-3C47-4D7F-932A-F098A4DFAD34Q34034707-96806027-F8B2-4CBD-9B6B-1771FFDDF3C8Q34058374-9EC7F9A1-348E-4FE4-8CC2-4C2D581B0963Q35100967-C647F38C-139A-4011-8089-0829152B626EQ38254768-749C2F19-F21E-44B5-83CA-EABCA4A1790DQ39877162-94FBF573-3D33-4C7E-8BC9-DEAFF9C92875Q46307890-C903B7F0-3942-48CC-B936-7AA5C882134FQ46478100-A977DE30-8B93-409D-9A5E-9464F9DB2458Q46847981-2246A3C0-40F8-4116-9265-2CCE3BBCE700Q48155579-607431CE-7F8C-466B-8694-C62163ED05AAQ51199324-AB1A2441-5097-40EE-A75A-DF201DA14AECQ51664622-90ACB612-EAAB-4611-87E2-AC2E2CC58FEBQ51696635-D8E1A99E-ECE1-42D2-8456-478B65DB30A5Q56379695-E00C7062-8198-4411-A2BE-C851A33CE732Q56432167-C127A64C-4354-4FA6-9D79-7DCF5020E07EQ56977627-46F390DA-9311-4AF4-9DB2-827B7CAB0342Q58795621-11D013D1-2E33-48BC-84FA-D26024021D2F
P2860
When can herbivores slow or reverse the spread of an invading plant? A test case from Mount St. Helens.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
When can herbivores slow or re ...... st case from Mount St. Helens.
@en
When can herbivores slow or re ...... st case from Mount St. Helens.
@nl
type
label
When can herbivores slow or re ...... st case from Mount St. Helens.
@en
When can herbivores slow or re ...... st case from Mount St. Helens.
@nl
prefLabel
When can herbivores slow or re ...... st case from Mount St. Helens.
@en
When can herbivores slow or re ...... st case from Mount St. Helens.
@nl
P2093
P356
P1476
When can herbivores slow or re ...... st case from Mount St. Helens.
@en
P2093
Craig Aumann
Jennifer L Apple
John G Bishop
Mark Lewis
Michael G Neubert
William F Fagan
P304
P356
10.1086/497621
P577
2005-10-04T00:00:00Z